Most microscopes can only study cell function in two measurements.

A typical multiphoton microscope does that very slowly, he said. ‘With ours, you can do it very quickly. We are beginning to see how an individual neuron behaves inside our laboratory,’ he stated. The next step, he said, will be to use to it to look a colonies or clusters of neurons. This will enable them to start to see the neuronal interactions actually. ‘At present, the technology is applied in my lab to review information processing of one neurons in mind slice preparations by 3D multi-site optical recording,’ said Dr. Peter Saggau, professor of neuroscience at BCM and the paper’s senior author. He is collaborating with two other labs on using the technology in other ways. In one, he said, researchers plan to utilize the technology to monitor nerve activity in the brains of lab animals in order study how populations of neurons communicate during visible stimulation.‘These improvements make the NAV6 system an outstanding embolic protection device.’ Basic safety and efficacy endpoints for the Emboshield NAV6 had been met in Abbott’s PROTECT clinical trial, which was made to examine carotid artery stenting with Abbott’s Emboshield systems in patients at high risk for carotid endarterectomy . In addition to demonstrating continued improvements in outcomes for carotid stent procedures, the PROTECT research data showed a low 1.8 % composite rate of most Stroke and Death at 30 days in 220 patients.